KR101710685B1 - System for blocking harmful gases and method for the same in main control room of nuclear power plants - Google Patents

Abstract

The present invention relates to a nuclear power plant main control room harmful gas blocking system, which blocks at least one of smoke and gas in a main control room of a nuclear power plant. The harmful gas blocking system of the present invention includes: a fire sensing signal part generating a signal by sensing a fire in case of fire outbreak; an air supply part including air which can be supplied into the main control room; an air pipe which is connected to the inside and the outside of the main control room, while being able to input and output air; a first opening and closing control part controlling air access of the air supply part to the air pipe on the basis of a fire signal of the fire sensing signal part; a pressure measurement part measuring pressure in the inside and the outside of the main control room; a second opening and closing control part opening and closing the air pipe on the basis of the measured pressure on the inside and on the outside of the main control room; a control part controlling the first opening and closing control part and the second opening and closing control part; and a muffler reducing noise generated due to pressure difference between the inside and the outside of the main control room when air is injected into the main control room. Also, the method for blocking the harmful gas in the main control room of the nuclear power plant includes: a step in which the fire sensing signal part senses the fire; a step in which the air is introduced into the air pipe on the basis of the sensed fire; a step of measuring the pressure on the inside and on the outside of the main control room; a step in which the air introduced into the air pipe is introduced into the main control room on the basis of the measured pressure on the inside and on the outside of the main control room; and a step of blocking introduction of the harmful gas into the main control room on the basis of the air introduced into the main control room.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system and method for blocking harmful gases in a nuclear power plant main control room,

The present invention relates to a noxious gas system for shutting off noxious gas in a main control room of a nuclear power plant and a method for shutting off the noxious gas.

The present invention is a technology necessary to improve the residence of the nuclear power plant main room and to satisfy the permit and permit requirements. The boundary between the main control room and the adjacent area where the cabinets are located is partitioned by the control panel. In order to cool the internal components of the control panel, a plurality of cooling holes are formed in both sides of the control panel. A flow of air is generated.

In the vicinity of the main control room, a gas-based fire extinguishing system is installed to prepare for a fire, and the fire extinguishing gas is discharged to lower the oxygen concentration in the air to thereby suffocate the fire. However, not only the fire in the area but also the smoke or the fire gas from the fire may invade into the main room through the ventilation hole of the control panel, resulting in a danger to the operator residing in the main room. You must evacuate.

However, due to actual fire or malfunction, the extinguished gas discharged at high pressure in the cabinet installation area may be a hindrance to the emergency operation measure because it spreads quickly to the main control room through the heat dissipation holes and clearance of the control panel, .

Japanese Laid-Open Patent Application No. 2005-188925A (published on July 14, 2005)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a noxious gas system for shutting off noxious gas in a main control room of a nuclear power plant, and a shutdown method.

It is an object of the present invention to provide a nuclear power plant main control room noxious gas shutdown system for shutting off at least one of smoke and gas in a main control room of a nuclear power plant, comprising: a fire detection signal unit for detecting a fire when a fire occurs, An air supply part including air that can be supplied to the inside of the control room, a transmission engine which communicates with the inside and outside of the main control room and is capable of entering and exiting the air, A first opening / closing control unit, a pressure measuring unit for measuring the pressure inside and outside the main control room, a second opening / closing control unit for opening / closing the air supply unit based on the measured pressure inside and outside the main control room, A control unit for controlling the second opening / closing control unit, and a control unit for controlling the opening / closing control unit And a silencer that reduces the noise that is generated due to the noise.

The muffler can be located inside the main control room.

And an air distribution plate that adjusts the amount of air ejected through the muffler into the main control chamber.

The muffler may include a plurality of pressure dispersion holes so that the pressure can be dispersed.

The fire detection signal unit includes at least two fire detection modules for detecting fire, and the control unit can open the first opening and closing control unit when more than half of the number of fire detection modules detects a fire.

The pressure measuring unit includes an internal pressure measuring unit for measuring a pressure inside the main control room to be measured and an external pressure receiving unit for measuring a pressure outside the main control room to be measured. The second opening / closing control portion can be opened.

It is still another object of the present invention to provide a method for blocking noxious gas in a main control room of a nuclear power plant, comprising the steps of: detecting a fire detection signal portion; A step of measuring the pressure inside and outside, a step of introducing the air introduced into the main control room into the main control room based on the measured pressure inside and outside the main control room, And blocking the introduction of noxious gas.

The step of introducing the air introduced into the main control room into the main control room based on the measured air introduced into the main control room is performed when the pressure inside the main control room is lower than the pressure outside the main control room, Air can be introduced into the main control chamber.

The silencer may further include a silencer for preventing noise generated due to pressure difference between the inside and the outside of the main control room.

The silencer may include an air distribution plate that regulates the amount of air spouted into the main control room through the air passing through the silencer.

The muffler may include a plurality of pressure dispersion holes so that the pressure can be dispersed.

The fire detection signal unit includes at least two fire detection modules for detecting a fire, and more than half of the number of the fire detection modules of the control unit may cause air to be blown into the air supply system when a fire is detected.

According to the present invention, a noxious gas system for shutting off noxious gas in a main control room of a nuclear power plant and a shut-off method are provided.

FIG. 1 illustrates a nuclear power plant noxious gas shutdown system according to an embodiment of the present invention. Referring to FIG.
FIG. 2 illustrates a silencer of a noxious gas shutdown system of a nuclear power plant according to an embodiment of the present invention. Referring to FIG.
3 is a flowchart showing a method for blocking noxious gas in a nuclear power plant.

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be described in more detail with reference to the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the technical concept of the present invention, are incorporated in and constitute a part of the specification, and are not intended to limit the scope of the present invention.

FIG. 1 illustrates a nuclear power plant noxious gas shutdown system for blocking harmful gases in a main control room of a nuclear power plant according to an embodiment of the present invention. Referring to FIG.

The system includes a fire detection signal unit (100) for detecting a fire when a fire occurs and generating a signal, an air supply unit (400) including air that can be supplied to the inside of the main control room, (See FIG. 2) communicating with the outside and capable of allowing the air to flow in and out, and a fire signal from the fire detection signal unit to the air supply unit 400 (see FIG. 2) A pressure measuring unit 200 for measuring the pressure inside and outside the main control room, a control unit for controlling the air supply unit 20 (see FIG. 2) based on the measured pressure inside and outside the main control room A control unit 300 for controlling the first opening / closing control unit 500 and the second opening / closing control unit 600, a control unit 300 for controlling the opening / closing of the main control room, Noise that reduces noise caused by pressure difference It comprises 700.

The fire detection signal unit 100 includes at least two fire detection modules for detecting a fire. The present invention includes a first fire detection module 101, a second fire detection module 103, a third fire detection module 105, and a fourth fire detection module 107.

The fire detection signal unit 100 is located outside the main control room. When there is a fire outside the main control room, four fire detection modules of the fire detection signal unit 100 detect a fire.

At this time, the number of fire detection modules is not limited as long as the fire outside the main control room can be clearly detected. Preferably, the fire detection signal unit 100 includes at least two fire detection modules, and preferably, the fire detection signal unit 100 may include four fire detection modules as in the present invention.

The pressure measuring unit 200 includes an inner pressure measuring unit 201 for measuring the inner pressure of the main control room and an outer pressure measuring unit 203 for measuring the outer pressure, And the external pressure measuring unit 203 are respectively located outside the main control room.

The air supply unit 400 includes air that can be supplied into the main control room, and includes oxygen to enable the user's breathing from the harmful gas intruded into the main control room.

The air supply unit 400 includes a first opening / closing control unit 500 connected to the air supply unit 20 (see FIG. 2).

The first opening and closing part 500 closes the inlet of the air supply part 400 so that the air of the air supply part 400 can not be discharged to the air supply unit 20 (see FIG. 2).

At this time, the shape of the first opening / closing part 500 is not limited, and various embodiments such as a valve type may be used.

The second open / close control part 600 also blocks the air supply tube 20 (see FIG. 2) so that the air inside the air supply tube 20 (see FIG. 2) can not move inside the main control room.

The controller 300 controls the opening and closing of the first opening / closing controller 500 and the second opening / closing controller 600.

The control unit 300 opens the first opening and closing control unit 500 when more than half of the number of the fire detection modules of the fire detection signal unit 100 detects fire, 20, see Fig. 2).

2) is provided with a second opening / closing control unit (not shown) so that the air of the unconditioned air supply unit 400 can not be discharged into the main control room through the air supply duct 20 600).

When the inner pressure measuring unit 201 and the outer pressure measuring unit 203 of the pressure measuring unit 200 measure the inner and outer pressures respectively, The opening / closing control part 600 is opened.

In this case, the external pressure of the main chamber increases more than the internal pressure of the main control room, and at the same time, the external pressure of the main control room due to the pressure difference is increased due to fire or malfunction outside the main control room. Gas will penetrate into the cabinet or the like around the main control room.

The controller 300 recognizes the pressure difference and opens the second opening / closing controller 600. The air in the air supply part 400 discharged through the first opening and closing part 500 passes through the second opening and closing part 600 opened along the air supply pipe 20 (see FIG. 2) do.

The air is injected into the main control chamber until the pressure inside the main control chamber becomes equal to the outside. In addition, the inside pressure of the main control room rises again due to the air, and when the pressure becomes equal to the external pressure, harmful gas intrusion into the main control room due to the pressure difference is not performed.

That is, when the pressure difference between the inside and the outside of the main control room is detected in advance and air is supplied to the inside of the main control room when the pressure inside the main control room is lowered from outside, harmful gas can be prevented from entering the main control room, Thereby reducing the risk of the operator inside the main control room.

2 shows a silencer according to an embodiment of the present invention. The air introduced into the air supply duct 20 due to the opening of the second opening / closing operation portion is injected after passing through the silencer 10 located inside the main control room.

The muffler 10 according to the present invention is elongated so that the air introduced into the muffler 10 can be widely discharged into the main control room and both ends are clogged.

In addition, the muffler 10 may include an air distribution plate 15 at the center of the muffler 10, which serves to control the ejection amount so that air is not ejected all at once into the main control chamber.

Here, the position and shape of the air distribution plate 15 are not limited, and various embodiments may be provided so long as they are not ejected all at once in the main control room.

In addition, the muffler may include a plurality of pressure dispersion holes 13 so that the pressure of the air introduced into the main control chamber can be dispersed.

At this time, the number, shape and shape of the pressure dispersion holes 13 are not limited, and various embodiments are possible if the pressure of the air can be dispersed.

3, a method for blocking harmful gas in the main control room of a nuclear power plant will be described.

The method for blocking harmful gas in the main control room of a nuclear power plant includes a step of detecting a fire by a fire detection signal portion, a step of introducing air into the air supply pipe 20 based on the detected fire, A step of introducing the air introduced into the main control room into the main control room based on the measured pressure inside and outside the measured main control room and a step of introducing the harmful gas into the main control room based on the air introduced into the main control room And blocking the inflow.

At this time, the air introduced into the main control chamber 20 based on the measured air introduced into the main control chamber flows into the main control chamber only when the measured pressure inside the main control chamber is lower than the measured pressure outside the main control chamber .

A system for blocking noxious gases in a main control room of a nuclear power plant of the present invention is characterized in that when a noxious gas such as a fire extinguishing gas or smoke is discharged outside the control room due to fire or malfunction outside the main control room, When the internal pressure becomes lower than the outside, air is supplied to the inside of the main control room. This is because it is possible to prevent harmful gas from outside the main control room from entering into the main control room due to pressure difference between the outside and inside of the main control room and to reduce the risk of the operator inside the main control room due to the harmful gas infiltration have.

This system includes a silencer, which not only prevents the noise generated due to the pressure difference between the outside and inside of the main control room, but also the pressure distribution hole included in the silencer can disperse the pressure of the air flowing into the silencer. The muffler can also include an air distribution plate, which helps prevent the air introduced into the muffler from being released into the main control chamber at a time.

The above-described embodiments are illustrative of the present invention, and the present invention is not limited thereto. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

Claims (12)

A nuclear power plant main control room noxious gas shutoff system for shutting off at least one of smoke and gas in a main control room of a nuclear power plant,
A fire detection signal unit for detecting a fire when a fire occurs and generating a signal;
An air supply unit including air that can be supplied into the main control room;
A main air passage communicating with the inside and outside of the main control room and capable of entering and exiting the air;
A first opening / closing control unit for controlling air in and out of the air supply unit based on a fire signal of the fire detection signal unit;
A pressure measuring unit for measuring pressure inside and outside the main control room;
A second opening / closing control unit for opening / closing the air supply system based on the measured pressure inside and outside the main control room;
A control unit for controlling the first opening / closing control unit and the second opening / closing control unit;
A muffler for reducing noise generated due to a pressure difference between the inside and the outside of the main control chamber when the air is injected into the main control chamber;
Lt; / RTI >
The fire detection signal unit,
At least two fire detection modules for detecting fire;
/ RTI >
Wherein the control unit opens the first opening / closing control unit when at least half of the number of the fire detection modules detects a fire,
The pressure measuring unit includes:
An internal pressure measuring unit for measuring a pressure inside the main control chamber to be measured;
An external pressure receiving unit for measuring a pressure outside the main control room to be measured;
/ RTI >
Wherein the control unit opens the second open / close control unit when the measured internal pressure is lower than the measured external pressure. The method according to claim 1,
Wherein the silencer is located inside the main control room. The method according to claim 1,
An air distribution plate for regulating an amount of air sprayed through the silencer into the main control chamber;
Wherein the main control room noxious gas shutoff system of the nuclear power plant is characterized by comprising: The method according to claim 1,
Wherein the muffler includes a plurality of pressure dispersion holes so that the pressure can be dispersed. delete delete A method for blocking noxious gases in a main control room of a nuclear power plant,
Detecting a fire detection signal addition part;
Introducing air into a transfer engine based on the sensed fire;
Measuring pressure inside and outside the main control room;
Introducing air into the main control chamber based on the measured pressure inside and outside the main control room;
Blocking the inflow of harmful gas into the main control room based on the air introduced into the main control room;
/ RTI >
Wherein the main control chamber includes a main control chamber and a main control chamber,
Wherein when the measured pressure inside the main control chamber is lower than the measured pressure outside the main control chamber, the air introduced into the main control chamber flows into the main control chamber,
The fire detection signal unit,
At least two fire detection modules for detecting fire;
/ RTI >
Wherein the control unit controls the air to be introduced into the air supply system when at least half of the number of the fire detection modules detects a fire, and the control unit controls the inflow of the air into the main control room of the nuclear power plant. delete 8. The method of claim 7,
Further comprising a silencer for preventing the air introduced into the main control room from generating noise due to a pressure difference between the inside and the outside of the main control room. 10. The method of claim 9,
Wherein the muffler includes an air distribution plate for regulating an amount of air blown through the muffler into the main control chamber;
Wherein the noxious gas is introduced into the main control room of the nuclear power plant. 10. The method of claim 9,
Wherein the muffler includes a plurality of pressure dispersion holes so that the pressure can be dispersed in the main control room of the nuclear power plant.

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